Add to ORKGWe present simulations of different types of biped walking machines that are stabilized in the lateral direction by adding a gyro. The simulations show that, in principle, it is indeed possible to stabilise biped walking machines. Examples presented in this work include a three-dimensional version of the simplest walking model, which is based on earlier investigations, and an actuated biped robot. Here, the gyro is used as a reaction wheel. Finally, a rotor–brake combination is outlined that was used in an artistic biped robot at the Aichi World Exhibition
The objective of this thesis is to study the walking control of biped robots including imbalance wal...
International audienceThe fields of control and robotics are working toward the development of biped...
A biped robot is a mechanical multichain system. The peculiar features, that distinguishes this kind...
We present simulations of different types of biped walking machines that are stabilized in the later...
We present simulations of different types of biped walking machines that are stabilized in the later...
International audienceDemands on leg degrees of freedom and control precision for bipedal robotics a...
The paper presents a simplified mathematical model of a two-leg walking robot with four degrees of f...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
This paper presents a new strategy for dynamic walking where a gyroscope mounted on top of the biped...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...
In this paper we describe a graphical simulator of biped locomotion. The simulation is accomplished ...
The present work offers a systematic vision of the problem of walking in biped machines of planar ty...
International audience—This paper seeks insight into stabilization mechanisms for periodic walking g...
A feasibility study on the mechanical design and walking operation of a Cassino biped locomotor is ...
One of the great challenges in the development of passive dynamic walking robots (useful for an unde...
The objective of this thesis is to study the walking control of biped robots including imbalance wal...
International audienceThe fields of control and robotics are working toward the development of biped...
A biped robot is a mechanical multichain system. The peculiar features, that distinguishes this kind...
We present simulations of different types of biped walking machines that are stabilized in the later...
We present simulations of different types of biped walking machines that are stabilized in the later...
International audienceDemands on leg degrees of freedom and control precision for bipedal robotics a...
The paper presents a simplified mathematical model of a two-leg walking robot with four degrees of f...
www.ai.mit.edu/projects/leglab Natural dynamics can be exploited in the control of bipedal walking r...
This paper presents a new strategy for dynamic walking where a gyroscope mounted on top of the biped...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...
In this paper we describe a graphical simulator of biped locomotion. The simulation is accomplished ...
The present work offers a systematic vision of the problem of walking in biped machines of planar ty...
International audience—This paper seeks insight into stabilization mechanisms for periodic walking g...
A feasibility study on the mechanical design and walking operation of a Cassino biped locomotor is ...
One of the great challenges in the development of passive dynamic walking robots (useful for an unde...
The objective of this thesis is to study the walking control of biped robots including imbalance wal...
International audienceThe fields of control and robotics are working toward the development of biped...
A biped robot is a mechanical multichain system. The peculiar features, that distinguishes this kind...